Encapsulated plant growth regulators and associative microorganisms: Nature-based solutions to mitigate the effects of climate change on plants

Over the past decades, the atmospheric CO2 concentration and global average temperature have been increasing, and this trend is projected to soon become more severe. This scenario of climate change intensifies abiotic stress factors (such as drought, flooding, salinity, and ultraviolet radiation) th...

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Veröffentlicht in:Plant science (Limerick) 2023-06, Vol.331, p.111688-111688, Article 111688
Hauptverfasser: Campos, Estefânia V.R., Pereira, Anderson do E.S., Aleksieienko, Ivan, do Carmo, Giovanna C., Gohari, Gholamreza, Santaella, Catherine, Fraceto, Leonardo F., Oliveira, Halley C.
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Sprache:eng
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Zusammenfassung:Over the past decades, the atmospheric CO2 concentration and global average temperature have been increasing, and this trend is projected to soon become more severe. This scenario of climate change intensifies abiotic stress factors (such as drought, flooding, salinity, and ultraviolet radiation) that threaten forest and associated ecosystems as well as crop production. These factors can negatively affect plant growth and development with a consequent reduction in plant biomass accumulation and yield, in addition to increasing plant susceptibility to biotic stresses. Recently, biostimulants have become a hotspot as an effective and sustainable alternative to alleviate the negative effects of stresses on plants. However, the majority of biostimulants have poor stability under environmental conditions, which leads to premature degradation, shortening their biological activity. To solve these bottlenecks, micro- and nano-based formulations containing biostimulant molecules and/or microorganisms are gaining attention, as they demonstrate several advantages over their conventional formulations. In this review, we focus on the encapsulation of plant growth regulators and plant associative microorganisms as a strategy to boost their application for plant protection against abiotic stresses. We also address the potential limitations and challenges faced for the implementation of this technology, as well as possibilities regarding future research. •Biostimulants can promote plant resilience to abiotic stress.•Biostimulants improve plant health with minimal environmental damage.•Micro/nanoparticles can boost biostimulant application in agriculture.•Nano-based biostimulants aiming sustainable agriculture.•Nature-based micro/nanoformulations generate high crop yields.
ISSN:0168-9452
1873-2259
DOI:10.1016/j.plantsci.2023.111688